Characterization of the fragmentation mechanisms in electrospray ionization tandem mass spectrometry of chloroquinoline derivatives with larvicidal activity against Aedes aegypti

Abstract

Rationale4,7‐Dichloroquinoline (DCQ) represents a group of synthetic molecules inspired by natural products with important roles in biological and biomedical areas. This work aimed to characterize DCQ and its derivatives by high‐resolution electrospray ionization (ESI) mass spectrometry and tandem mass spectrometry (ESI‐MS/MS), supported by theoretical calculations. Biological assays were carried out with DCQ and its derivatives to determine LC50 values against Aedes aegypti larvae.MethodsFive DCQ derivatives were synthesized by using previously described protocols. ESI‐MS/MS analyses were carried out with a quadrupole/time‐of‐flight and ion‐trap instrument. The proposed gas‐phase protonation sites and fragmentation were supported by density functional theory calculations. The larvicidal tests were performed with the Ae. aegypti Rockefeller strain, and the LC50 values were determined by employing five test concentrations. Larval mortality was determined after treatment for 48 h.ResultsDCQ bromides or aldehydes (C‐3 or C‐8 positions), as well as the trimethylsilyl derivative (C‐3 position), were prepared. Detailed ESI‐MS/MS data revealed heteroatom elimination through an exception to the even‐electron rule, to originate open‐shell species. Computational studies were used to define the protonation sites and fragmentation pathways. High activity of DCQ and its derivatives against Ae. aegypti larvae was demonstrated.ConclusionOur results provided a well‐founded characterization of the fragmentation reactions of DCQ and its derivatives, which can be useful for complementary studies of the development of a larvicidal product against Ae. aegypti.